KR101250384B1 - Mold transform and manufacturing method of mold transform, and optical sheet usinf the same - Google Patents

Abstract

The present invention relates to the manufacture of a mold capable of forming a pattern of the curvature in the micro-machining, the formation of the curvature in the present invention is formed by forming a curvature through the coating on the organic mold having a flat surface between the pattern and the pattern The curvature portion is formed by manufacturing a second mold having a curvature pattern. In particular, the radius of the curvature is adjusted by adjusting the thickness of the organic material, and the pattern of the curvature is formed by setting the viscosity of the organic material to 1 to 1000 cP.

According to the present invention, a mold having a fine curvature pattern is formed on a basic mold having a flat part through coating an organic material, thereby efficiently manufacturing a second mold having a curvature part between the pattern and the pattern. There is an effect that can be prepared in an efficient and simple manner.

Curvature Pattern, Micro Lens Array, Organic Coating

Description

MOLD TRANSFORM AND MANUFACTURING METHOD OF MOLD TRANSFORM, AND OPTICAL SHEET USINF THE SAME}

The present invention relates to a mold manufacturing method for manufacturing a second mold having a curvature pattern by forming a curvature through an organic coating on a base mold having a flat surface between the pattern and the pattern. Specifically, in forming a curvature pattern for manufacturing a mold for forming a fine curvature, a method of manufacturing a mold having a fine pattern using a conventional method of manufacturing a mold or photolithography using photolithography. In addition, the present invention relates to a mold manufacturing method capable of implementing the formation of a curvature pattern in a very easy manner through organic coating.

In micro display (MEMS), which is applied to various information equipment parts such as magnetic and optical head by using display equipment and micro-optics and limiting devices which are being advanced, formation of micro patterns and especially formation of such patterns Research into the micromachining technology for forming the curvature in the field is actively progressing.

In the fine processing technology, a field in which a fine pattern is formed is most directly utilized is a diffusion film of LCD or a processing field using the aforementioned MEMS. Among these, the problem of the prior art will be described through the field of pattern formation used in the diffusion film of the LCD.

 LCD, a liquid crystal display device, is a non-light-emitting type electronic display device and has to provide a separate light source, that is, a backlight, to provide a clear and natural natural color of a moving image, and to provide uniformity and high brightness of generated light. Optical sheet combinations such as diffusion film, BEF, and DBEF are used.

Particularly, the diffusion film has a pitch of several hundred micrometers (µm) and a height of several tens of micrometers or less, and the distance between the lens and the lens, the bead and the bead is also manufactured in a two-dimensional array form having a few to several tens of micrometers. A microlens array film is used. In the case of such a microlens array film, a mold is first manufactured by using photo lithography, chemical etching, and machining, and a microlens array film is manufactured using the mold.

1A illustrates a method of using machining in a method of manufacturing a mold for forming a pattern having a pitch of several hundred micrometers described above. The metal plate 1 having a large rigidity is scratched once or repeatedly with a scratcher 2 to form a hemispherical pattern 3 on the metal plate 1. In this case, a gap Gap 5 exists between the pattern 3 and the pattern 3, and the gap 5 corresponds to the pitch of the lenticular when the lenticular sheet is manufactured using a mold. The pitch of the lenticular is a factor that determines the clarity of the television. The narrower the pitch, the higher the clarity of the television. However, the conventional manufacturing method as described above is very difficult to finely process the gap between the pattern and the pattern by using a scratcher, and it is very difficult to smoothly smooth the hemispherical pattern inner surface. For this reason, it is difficult to produce a lenticular sheet having a fine pitch and a uniform surface.

In addition, a method using photo lithography is shown in FIG. 1B as another method of forming a fine pattern. In step S10, the photoresist 120 is coated on a substrate 110 of metal, glass, ceramic, or silicon material. In step S20, the photoresist 120 is exposed and developed. Unnecessary photoresist is then removed, and only the photoresist 120a of the required portion remains. Subsequently, in step S30, a pattern 111 having a shape to be formed by first etching a portion of the substrate 110 exposed between the remaining photoresist 120a by wet or dry is formed on the substrate 110. In step S40, the remaining porogenis 120a are removed. Then, the mold 130 to be manufactured is manufactured. Thereafter, the surface of the pattern 111 formed on the substrate 110 is secondarily etched wet or dry to smoothly polish the surface. The method for manufacturing a lenticular sheet and a microlens array sheet using the mold 130 may include forming a lenticular or microlens pattern by injecting a thermosetting resin or a photocurable resin into the pattern 111 of the mold 130, and forming the lenticular or microlens pattern. What is necessary is just to adhere | attach a substrate film on a microlens pattern.

However, such a method also has a very difficult point of forming a pattern portion having curvature between the respective patterns. If there is a flat surface (F) existing between the pattern and the pattern will not be able to fully implement the efficacy of the desired parts to reduce the quality of the product. In particular, when there is a flat surface (F) formed between the pattern 140 and the pattern appearing in the mold (FIG. 1C) produced by the above-described method, the manufactured product is also flat, bar curvature separately It is very difficult to form.

For example, in the case of using the photolithography method for manufacturing the mold of the microlens array described above, since the difference between the lenses has a flat surface, the uniformity of the light emitted from the lamp assembly is different, so that it is difficult to remove the bright lines, and the backlight of the LCD Difficulty in making the unit slim becomes difficult.

In addition, in order to form a curvature between the pattern and the pattern to separate the micro-processing, the cost, feasibility and reliability is very low, which has become a cost and manufacturing problem.

The present invention has been made to solve the above-described problems, an object of the present invention is to form a curvature portion through the coating organic coating on the base mold having a flat portion, through which the second mold formed a curvature between the pattern and the pattern efficiently It is possible to manufacture a mold, and to manufacture a mold having a fine curvature pattern in an efficient and simple manner.

In order to solve the above problems, the present invention is to form a curvature portion through the organic coating on the base mold having a flat surface between the pattern and the pattern, to form a curvature portion in the manner of manufacturing a second mold having a curvature pattern . In particular, the radius of the curvature is adjusted by adjusting the thickness of the organic material, and the pattern of the curvature is formed by setting the viscosity of the organic material to 1 to 1000 cP.

According to the present invention, a mold having a fine curvature pattern is formed on a basic mold having a flat part through coating an organic material, thereby efficiently manufacturing a second mold having a curvature part between the pattern and the pattern. There is an effect that can be prepared in an efficient and simple manner.

The present invention provides a mold manufacturing method for manufacturing a second mold having a curvature pattern by forming a curvature part through an organic coating on a base mold having a flat surface between the pattern and the pattern, so that the curvature part of the fine pattern is very simple. It can be manufactured efficiently by the process.

In addition, the present invention provides a mold manufacturing method for manufacturing a second mold having a curvature pattern, characterized in that the organic material has a viscosity of 1 ~ 1000cP to efficiently form the curvature by using the viscosity and surface tension of the organic material Do it.

In addition, the present invention provides a mold manufacturing method for manufacturing a second mold having a curvature pattern, characterized in that the curvature radius of the curvature pattern is formed by adjusting the thickness of the organic material to be coated, thereby improving the efficiency of the manufacturing method do.

In another aspect, the present invention provides a mold manufacturing method for manufacturing a second mold having a curvature pattern, characterized in that the microlens array pattern is a plurality of lenses of the same size or different size or evenly distributed unevenly By applying general micro curvature patterns to lens-type (semi-spherical) films including micro lens arrays, it is possible to have curvatures that can improve light uniformity by efficiently removing bright lines and uniformly spreading and dispersing light. .

In addition, the present invention provides a mold manufacturing method for manufacturing a second mold having a curvature pattern, characterized in that the pattern is a lenticular lens array pattern in which a plurality of lenses of the same size or different size is uniformly or unevenly distributed. By forming the above-described curvature even in a simple process, it is possible to provide a diffusion sheet of excellent quality.

In addition, the present invention is a method of manufacturing a mold according to any one of claims 1 to 5 to form a second mold having a curvature pattern by forming a curvature through an organic coating on the base mold having a flat surface between the pattern and the pattern. It is possible to provide a mold having a curvature pattern to be manufactured through. This makes it possible to efficiently provide not only an LCD film including a micro lens array, but also the formation of curvature parts essential in various microfabrication fields in a very simple process.

The configuration and operation of the present invention will be described in detail with reference to FIG. 2.

The present invention basically forms a curvature on a flat surface existing between a predetermined pattern and the pattern, by coating an organic material on the flat surface and forming a pattern of the curvature using the viscosity and surface tension of the organic material, The basic idea is to enable the manufacture of soft molds or metal molds. Therefore, the gist of the present invention is to form a flat surface between each lens as a curvature in a film having a micro lens array used for the diffusion film of the LCD, etc., but has a curvature between patterns in a process through MEMS, which is a micro machining There is an advantage that there is a universal availability that can be applied to a variety of shapes and the like.

Hereinafter, an application example of the present invention will be described through a method of forming a curvature part in a lens type film including a microlens array.

As shown in Figure 2, basically prepare a basic mold (10). The basic mold has a flat portion between the pattern and the pattern (P1). Next, the organic material is coated on the pattern 20 (P2). In this case, it is preferable to use an organic substance having a viscosity of 1 to 1000 cP. In particular, when the above-described organic coating is applied, the curvature portion T is due to the viscosity and surface tension of the organic material in the flat surface between the pattern and the pattern. In addition, the radius of curvature may be adjusted using the thickness of the organic material. Thereafter, the mold 30 using the organic material-coated mold or molded article is manufactured (P3).

In another embodiment of the present invention, the basic mold 10 of the step of coating the organic material can be used as a mold as a matter of course. That is, the dried after coating the organic material in the P2 step can be used as a mold, and further, to strengthen the mold, it is possible to make a mold strengthened by metal electroplating on the organic material layer 20. In this way, when a molded article is manufactured by forming a mold, a molded article corresponding to a shape similar to the reference numeral 30 of P3 in FIG. 2 comes out.

3 illustrates an example of an optical sheet manufactured by the method of manufacturing the mold.

When the optical sheet 10 is manufactured through a mold having a curvature rule, the curvature portion T ₁ is formed between the pattern and the patterns 20 and 30. To T ₃ ), the presence of such curvatures solves the difficulty of removing the bright lines due to the presence of the flat surface between the patterns of the optical sheet, and improves the light diffusion and the light uniformity, thereby providing an excellent optical sheet. There is. In this example, the microlens shape has been described, but it is also applicable to the lenticular shape, and also to the non-uniform distribution instead of the uniform pattern distribution.

Figure 4 shows a photograph of the formation of the curvature after the coating of the organic material described above. (a) is a case where the viscosity of an organic substance is 2 cP, (b) shows the viscosity of an organic substance is 4 cP, (c) is 7 cP, and (d) is 17 cP. It shows that the radius of curvature is adjusted by the adjustment of each viscosity. In this invention, it is preferable that the organic substance uses what has a viscosity of 1-1000 cP.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical idea of the present invention should not be limited to the embodiments of the present invention but should be determined by the equivalents of the claims and the claims.

1A to 1C relate to a method of forming a fine pattern according to the prior art.

2 illustrates a manufacturing process of a micro lens array having a curvature pattern according to the present invention.

3 is a schematic view of an optical sheet with a micro lens array made by a mold according to the invention.

4 is a view showing the formation of a radius of curvature according to the viscosity of the organic material according to the present invention.

Claims (8)

Preparing a basic mold having a pattern and a flat surface between the patterns; Coating an organic material having a viscosity of 1 to 1000 cP on the base mold; Forming a curvature on the flat surface by the viscosity and surface tension of the coated organic material; And Manufacturing a second mold having a curvature pattern formed by electroplating on the basic mold having the curvature formed thereon; Including, The pattern is a mold manufacturing method, a pattern in which a plurality of lenses of the same or different size is distributed uniformly or unevenly. delete The method according to claim 1, The manufacturing of the second mold in which the curvature pattern is formed may include: Manufacturing the second mold by forming a radius of curvature of the curvature pattern by adjusting a thickness of the coated organic material Mold manufacturing method comprising a. delete The method of claim 3, Wherein the pattern is a lenticular lens array pattern in which a plurality of lenses of the same or different size are distributed uniformly or non-uniformly. The base metal mold having a flat surface between the pattern and the pattern is coated with an organic material having a viscosity of 1 to 1000 cP on the top, and the curvature is formed on the flat surface by the viscosity and surface tension of the coated organic material. A mold having a curvature pattern is manufactured by manufacturing a second mold having a curvature pattern formed by electroplating on the basic mold, wherein the plurality of lenses having the same size or different size are uniformly or unevenly distributed. Optical sheet comprising a curvature between the lens of the relief and the lens manufactured using the second mold of claim 6. The method of claim 7, And the curvature is a concave lens.

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